Conversion of Snellen visual acuity fractions to approxETDRS letter scores for the purpose of performing statistical manipulations provides more readily interpretable outcomes compared with the current strategy of converting Snellen visual acuity fractions to logMAR units.
Retinal gene therapy has shown great promise in treating retinitis pigmentosa (RP), a primary photoreceptor degeneration that leads to severe sight loss in young people
1
,
2
,
3
,
4
,
5
,
6
. Here we report the first in human Phase I/II dose escalation clinical trial for X-linked RP caused by mutations in the RP GTPase regulator
(RPGR)
gene
7
in 18 patients up to 6 months follow-up (
Clinicaltrials.gov
: NCT03116113). The primary outcome of the study was safety and secondary outcomes included visual acuity, microperimetry and central retinal thickness. Apart from steroid-responsive subretinal inflammation in patients at the higher doses, there were no significant safety concerns following subretinal delivery of an adeno-associated viral vector encoding codon-optimized human
RPGR
(AAV8.
coRPGR
)
8
meeting the pre-specified primary endpoint. Visual field improvements beginning at one month and maintained to the last point of follow-up were observed in six patients.
Purpose
To measure drusen area and volume in eyes with non-exudative age-related macular degeneration (AMD) using spectral domain optical coherence tomography imaging (SDOCT).
Design
Evaluation of diagnostic technology
Participants
One hundred three eyes from 74 patients with drusen
Methods
Patients with drusen secondary to non-exudative AMD were enrolled in this study. Five separate SDOCT scans, each consisting of 40000 uniformly spaced A-scans organized as 200 A-scans in each B-scan and 200 horizontal B-scans, were performed on each eye. Each scan covered a retinal area of 6×6 mm centered on the fovea. A novel algorithm was used to quantitatively assess drusen area and volume. Measurements from the entire scans, as well as in regions contained within 3 mm and 5 mm circles centered on the fovea, were analyzed. Test-retest standard deviations of drusen area and volume measurements were calculated for each eye.
Main Outcome Measure
Drusen area and volume
Results
The algorithm created drusen maps that permitted both qualitative and quantitative assessment of drusen area and volume. Both the qualitative appearance and the quantitative measurements of drusen area and volume were highly reproducible over the 5 different datasets. The intraclass correlation coefficient (ICC) was above 0.99 for both area and volume measurements on the entire dataset as well as the 3 mm and 5 mm circles. The correlation between lesion size and the test-retest standard deviations can be eliminated by performing a square-root transformation of the area measurements and a cube-root transformation of the volume measurements. These transformed data allowed for the inclusion of all drusen sizes in the calculation of an estimated single pooled test-retest standard deviation which will be useful for longitudinal studies of drusen natural history.
Conclusions
A novel algorithm for the qualitative and quantitative assessment of drusen imaged using SDOCT was shown to be highly reproducible. The ability to assess drusen volume reliably represents a new quantitative parameter to measure in AMD and may be useful when assessing disease progression, particularly in trials for treatments of non-exudative AMD.
We have found that the tripotential glial-restricted precursor (GRP) cell of the embryonic rat spinal cord can give rise in vitro to bipotential cells that express defining characteristics of oligodendrocyte-type-2 astrocyte progenitor cells (O2A/OPCs). Generation of O2A/OPCs is regulated by environmental signals and is promoted by platelet-derived growth factor (PDGF), thyroid hormone (TH) and astrocyte-conditioned medium. In contrast to multiple observations indicating that oligodendrocyte precursor cells in the embryonic day 14 (E14) spinal cord are ventrally restricted, GRP cells are already present in both the dorsal and ventral spinal cord at E13.5. Ventral-derived GRP cells, however, were more likely to generate O2A/OPCs and/or oligodendrocytes than were their dorsal counterparts when exposed to TH, PDGF, or even bone morphogenetic protein-4. The simplest explanation of our results is that oligodendrocyte generation occurs as a result of generation of GRP cells from totipotent neuroepithelial stem cells, of O2A/OPCs from GRP cells and, finally, of oligodendrocytes from O2A/OPCs. In this respect, the responsiveness of GRP cells to modulators of this process may represent a central control point in the initiation of this critical developmental sequence. Our findings provide an integration between the earliest known glial precursors and the well-studied O2A/OPCs while opening up new questions concerning the intricate spatial and temporal regulation of precursor cell differentiation in the CNS.
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